Transfer back

ABSTRACT

A communication system includes logic to detect a second communication device in proximity to a first communication device engaged in a call, logic to provide substantially uninterrupted transfer of the call to the second communication device, and logic to transfer in a substantially uninterrupted fashion at least a portion of the call to the second communication device back to the first communication device upon indications that a user of the second communication device has shifted back to using the first communication device.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is related to and claims the benefit of earliestavailable effective filing date(s) from the following listedapplication(s) (the “Related Applications”) (e.g., claims earliestavailable priority dates for other than provisional patent applications;claims benefits under 35 USC §119(e) for provisional patentapplications), and incorporates by reference in its entirety all subjectmatter of the following listed application(s); the present applicationalso claims the earliest available effective filing date(s) from, andalso incorporates by reference in its entirety all subject matter of anyand all parent, grandparent, great-grandparent, etc. applications of theRelated Application(s) to the extent such subject matter is notinconsistent herewith:

1. For purposes of the USPTO extra-statutory requirements, the presentapplication constitutes a continuation of United States PatentApplication entitled TRANSFER BACK, naming Royce A. Levien; Mark A.Malamud; and John D. Rinaldo, Jr. as inventors, filed 2 Feb. 2005 nowU.S. Pat. No. 7,536,179, application Ser. No. 11/050,400, which isentitled to the benefit of the filing date.

2. For purposes of the USPTO extra-statutory requirements, the presentapplication constitutes a continuation of United States PatentApplication entitled TRANSFER BACK, naming Royce A. Levien; Mark A.Malamud; and John D. Rinaldo, Jr. as inventors, application Ser. No.12/217,122 filed 30 Jun. 2008, which is currently co-pending, or is anapplication of which a currently co-pending application is entitled tothe benefit of the filing date.

The United States Patent Office (USPTO) has published a notice to theeffect that the USPTO's computer programs require that patent applicantsreference both a serial number and indicate whether an application is acontinuation or continuation-in-part. Stephen G. Kunin, Benefit ofPrior-Filed Application, USPTO Official Gazette Mar. 18, 2003. Thepresent Applicant has provided above a specific reference to theapplication(s) from which priority is being claimed as recited bystatute. Applicant understands that the statute is unambiguous in itsspecific reference language and does not require either a serial numberor any characterization, such as “continuation” or“continuation-in-part,” for claiming priority to U.S. patentapplications. Notwithstanding the foregoing, Applicant understands thatthe USPTO's computer programs have certain data entry requirements, andhence Applicant is designating the present application as a continuationof its parent applications as set forth above, but expressly points outthat such designations are not to be construed in any way as any type ofcommentary and/or admission as to whether or not the present applicationcontains any new matter in addition to the matter of its parentapplication(s).

All subject matter of the Related Application and of any and all parent,grandparent, great-grandparent, etc. applications of the RelatedApplications is incorporated herein by reference to the extent suchsubject matter is not inconsistent herewith.

PRIORITY

This is a continuation-in-part of U.S. patent application Ser. No.10/995,889 filed on Nov. 22, 2004 now U.S. Pat. No. 7,424,288.

TECHNICAL FIELD

The present disclosure relates to transfer of communication amongdevices.

BACKGROUND

Mobile communication devices are now a common feature in both personaland commercial environments. Such devices continue to improve in bothfunctionality and reliability. However, being adapted for mobilitybrings drawbacks. Such devices tend to have small, limited keyboards andsmall screens, among other limitations.

The users of mobile devices are often in proximity with othercommunication devices. These other devices may, due to their largersize, have advantages not readily available in more portable devices.For example, these other devices may have superior audio, video, orimaging capabilities relative to their mobile counterparts. For theseand other reasons, it may be advantageous to employ the capabilities ofproximate devices when communicating via mobile devices.

SUMMARY

The following summary is intended to highlight and introduce someaspects of the disclosed embodiments, but not to limit the scope of theinvention. Thereafter, a detailed description of illustrated embodimentsis presented, which will permit one skilled in the relevant art to makeand use aspects of the invention. One skilled in the relevant art canobtain a full appreciation of aspects of the invention from thesubsequent detailed description, read together with the figures, andfrom the claims (which follow the detailed description).

A communication system includes logic to detect a second communicationdevice in proximity to a first communication device engaged in a call,logic to provide substantially uninterrupted transfer of the call to thesecond communication device, and logic to transfer in a substantiallyuninterrupted fashion at least a portion of the call to the secondcommunication device back to the first communication device uponindications that a user of the second communication device has shiftedback to using the first communication device.

BRIEF DESCRIPTION OF THE DRAWINGS

The headings provided herein are for convenience only and do notnecessarily affect the scope or meaning of the claimed invention.

In the drawings, the same reference numbers and acronyms identifyelements or acts with the same or similar functionality for ease ofunderstanding and convenience. To easily identify the discussion of anyparticular element or act, the most significant digit or digits in areference number refer to the figure number in which that element isfirst introduced.

FIG. 1 is a block diagram of an embodiment of a communicationenvironment.

FIG. 2 is an action flow diagram of an embodiment of a communicationtransfer process.

FIG. 3 is an action flow diagram of an embodiment of a partialcommunication transfer process.

FIG. 4 is a block diagram of an embodiment of a communicationenvironment.

FIG. 5 is an action flow diagram of an embodiment of a communicationtransfer process.

FIG. 6 is an action flow diagram of an embodiment of a partialcommunication transfer process.

DETAILED DESCRIPTION

The invention will now be described with respect to various embodiments.The following description provides specific details for a thoroughunderstanding of, and enabling description for, these embodiments of theinvention. However, one skilled in the art will understand that theinvention may be practiced without these details. In other instances,well known structures and functions have not been shown or described indetail to avoid unnecessarily obscuring the description of theembodiments of the invention. References to “one embodiment” or “anembodiment” do not necessarily refer to the same embodiment, althoughthey may.

FIG. 1 is a block diagram of a communication environment. The wirelesscommunication device 112 provides wireless communication of signals toand from other devices. Examples of a wireless communication deviceinclude a cellular telephone 112, a wireless telephone handset 116, apersonal digital assistant, and/or a laptop computer. The wirelesscommunication device 112 may transmit and receive analog and/or digitalsignals representing human voices. The wireless communication device 112may also transmit and receive various forms of non-voice data.

The wireless communication device 112 exchanges signals with the network114, either directly or via one or more antennas 108 of a co-locatedwireless base station 106.

The exchange of signals between the wireless device 112 and the network114 may result in the establishment of a call, whereby the device usermay obtain and/or provide voice and/or non-voice information withanother person and/or with a computing device. For example, twoindividuals may engage in a conversation using their cellulartelephones, such as device 112. Or, a user of device 112 may interactwith a computing device to obtain his electronic mail.

The communication environment may comprise a desktop computer 102, whichin turn may comprise a display 104 and/or speakers 106. Alternatively oradditionally, some environments may include, for example, a laptopcomputer or a terminal interface to a central shared computing resource.

The display 104 provides for the display of visual information such astext, images, windows, menus, icons, and video. In some embodiments, thedisplay 104 comprises cathode ray tube technology. In other embodiments,the display 104 comprises flat screen technology.

The speakers 106 provide rendering (e.g., playing) of audio information.In some embodiments, the speakers 106 comprise headphones. In otherembodiments stand-alone and/or built-in speakers 106 may be used.

A microphone 118 converts sounds to audio information. In someembodiments, the microphone 118 is built into the computing device. Themicrophone 118 may also be integrated with the headset or may comprise astand alone wired or wireless microphone. There may be more than onemicrophone 118 within the communications environment.

While the first communications device 112 is engaged in a call,proximity with a second communication device may be detected. Examplesof a second communication device include a desktop computer 102, alaptop, a computer, a television 110, or a wireless telephone handset116, to name just a few possibilities. The logic to detect proximitybetween two communication devices may reside within the first device112, within the second device 102, 110, or 116, within the network 114,and/or within combinations of these and/or other devices. When usedherein, logic may include circuitry and/or instructions stored within amemory which effects the indicated actions.

Detecting a second device 102, 110 or 116 may include detecting awireless signal communicated by the second device 102, 110, or 116.Detecting a wireless signal communicated by the second device 102, 110,or 116 may include detecting an infrared signal, and/or applyingBluetooth communications between the first 112 and second 102, 110, or116 devices.

Detecting a second communication device 102, 110, or 116 in proximity toa first communication device 112 engaged in a call may includeidentifying the second device 102, 110, or 116 visually, e.g. from oneor more images captured by the first 112 or second devices 102, 110,116.

Detecting a second communication device 102, 110, or 116 in proximity toa first communication device 112 engaged in a call may include detectingthat the first device 112 is in a physical area, and detecting that thesecond device 102, 110, or 116 is also in the area.

Detecting a second communication device 102, 110, or 116 in proximity toa first communication device 112 engaged in a call may include applyingwireless communication between a third communication device and thesecond communication device 102, 110 or 116. The third device and thesecond device 102, 110 or 116 may communicate using Bluetoothtechnology. The third device may be carried by a user of the firstcommunications device 112. For example, the third device may be aBluetooth-capable medallion worn by the user of the first communicationsdevice 112.

When a second communications device 102, 110, or 116 is detected to bein proximity to the first communications device 112 which is engaged ina call, the call may be transferred in a substantially uninterruptedmanner from the first device 112 to the second device 102, 110, or 116.Providing substantially uninterrupted transfer of the call to the seconddevice 102, 110, or 116 may include identifying the second device 102,110, or 116 to a network 114 by which the call is provided. The network114 may substantially duplicate the call to the second device 102, 110,or 116. The logic to accomplish the transfer of the call may residewithin the network 114 or within some combination of the network andother devices, such as, for example, the first device 112.

In some embodiments, after proximity is detected between the firstdevice 112 and the second device 102, 110, or 116, transfer may occurautomatically. Transfer may also occur after user manipulation of acontrol on the first device 112. Controls of the first device 112 mayinclude at least one button, lever, dial, touch-sensitive area, switch,or voice command control. For example, the user may be provided with anoption on the device's 112 display which, if selected, may initiate calltransfer.

Alternatively, transfer may occur after user manipulation of a controlon the second device 102, 110, or 116. For example, if the second deviceis a computer 102, its display may show an option which, if selected,may initiate call transfer. In some embodiments, the call may betransferred in response to motion of the first device toward the seconddevice. In some embodiments, the call may be transferred in response toorienting the first device toward the second device.

In some embodiments, after the call has been transferred to the seconddevice 102, 110, or 116, it may be transferred in a substantiallyuninterrupted manner back to the first device 112. The transfer back tothe first device 112 may in some embodiments occur automatically. As anexample, automatic transfer back to the first device 112 may occur whenthe first device 112 is moved out of proximity with the second device102, 110, or 116. The transfer back to the first device 112 may alsooccur as a result of user manipulation of a control on the first device112 or on the second device 102, 110, or 116.

Transferring the call from the first device 112 to the second device102, 110, or 116 may include terminating the call from the perspectiveof the first device 112. In some embodiments, transferring the callincludes terminating the call to the first device 112 from theperspective of the network 114. If a second call is received, the secondcall may automatically or under user control also be transferred to thesecond device 102, 110, or 116.

In some embodiments, communications to the first 112 and second 102,110, or 116 devices may be routed through a central premise device, suchas the base station 106.

In some embodiments, communications to the second device 102, 110, or116 may be routed through the first device 112.

In some embodiments where a central premise device 106 or the firstdevice 112 provides the interface to the second device 102, 110, or 116,the network 114 and its logic may not be involved in accomplishing thecall transfer. In that situation, the call, from the standpoint of thenetwork 114, may still be ongoing with the first device 112.

In some embodiments, although the call has been transferred to thesecond device 102, 110, or 116, the user may be able to perform somecontrol functions with respect to the call by manipulating controls onthe first device 112. For example, the user may be able to terminate thecall by manipulating a control on the first device 112.

In some embodiments, the user will additionally or alternatively be ableto perform some control functions with respect to the call bymanipulating controls on the second device 102, 110, or 116.

FIG. 2 is an action flow diagram of an embodiment of a communicationtransfer process initiated by action of the first device. At 202,communication takes place between the first device and the network. At201, transfer of the call which is active on the first device isinitiated (e.g., transfer to occur to the second device). Transfer maybe initiated automatically when the first device becomes proximate withthe second device. Alternatively and/or in conjunction with proximity,the user may operate a control on the first device and/or second deviceto initiate transfer.

In some embodiments, the user may operate a control in response toeither/both the first or second device providing an indication that acall transfer is available. The device in most embodiments would providethis indication after proximity has been detected. Examples of the firstdevice providing an indication that a call transfer is available,include the first device providing at least one touch screen selection,activating a light emitting diode or other visual indication, and/orproviding a tone or other audible indication. An example of the seconddevice providing an indication would be providing, on its display, amessage indicating proximity exists along with an option to initiatetransfer.

At 204, the network provides a call connection to the second device. At206, the network duplicates the communication to the second device. Theduplication of communication which may occur accomplishes, from theuser's perspective, a substantially uninterrupted call as transfer isaccomplished. This may be advantageous as the user's attention need notmove instantaneously from the first to second device.

At 208, the network attenuates communication to the first device, (whilepossibly enhancing communication to the second device). Graduallyattenuating communication with the first device may include graduallyreducing a volume of the communication with the first device. Graduallyenhancing communication with the second device may include graduallyincreasing the volume of communication with the second device.

In a second scenario, at 210 the communication takes place between thenetwork and the second device. At 211, transfer of the call which isactive on the second device is initiated (transfer to occur to the firstdevice). Transfer may be initiated automatically when the second deviceis no longer proximate with the first device (and thus presumably, thefirst device and its user have moved away from the second device).Alternatively, the user may operate a control on the first or seconddevice to initiate transfer.

At 212, the network provides a call connection to the first device. At214, the network duplicates the communication to the first device. At216, communication to the second device is attenuated (while possiblyenhancing communication to the first device).

The network may be actively involved in accomplishing the call transferin the above scenarios. Alternatively, in some embodiments, the networkmay be unaware that a call transfer is occurring. In those embodiments,all and/or part of logic to accomplish the call transfer, includingduplicating and enhancing or attenuating communications as indicated,may be performed by elements other than the network. For example, thefirst device might act as a pass-through for communications with thesecond device.

FIG. 3 is an action-flow diagram of an embodiment of the partialcommunication transfer process. At 302, communication takes placebetween the first device and the network. At 301, the first device movesproximate to the second device, and/or the user of the first deviceoperates a control of the first and/or second devices.

At 304, the network provides a call connection to the second device.

At 306, one or more particular data types occurring within the call tothe first device are duplicated to the second device. This duplicationmay be performed wholly or in part by logic within the network, as isshown in FIG. 3.

Alternatively, in other embodiments, the network may not participate induplication of a portion of the call to the first device. For example,the first device may act as a conduit for specific call information tothe second device, without intervention of the network.

Thus, as shown in FIG. 3, a portion of the call state (for one or moredata types) is duplicated. For example, if the second device hasspeakers, sounds which are sent to the first device may be expressedthrough the speakers of the second device. For this same call, othertypes of communication, such as inbound text messages, may still occurthrough the first device.

As a second example, if the second device were a television, sounds andimages destined for the first device might be duplicated or expressed onthe television. For this same call, images which include text mightadditionally be expressed on the first device, where data entry wouldoccur.

To accomplish partial call transfer for a particular data type or types,the effecting computing elements (e.g. processor(s) and logic of thefirst device, and/or second device, and/or network) may detect the datatype of communication data. Examples of a data type of communicationinclude voice, video, data file, or music.

Additionally, the capabilities of the proximate device for rendering thedata type may be recognized. Examples include facilities for displayingimages, playing video, and/or playing sound or music.

Accomplishing a partial call transfer may include maintainingcommunication with the first device of data not having the selected datatype(s), and transferring data having the selected data type(s) to theproximate device.

At 308, the network attenuates communication of the data type (forexample, sounds) to the first device. In other embodiments, aspreviously indicated, attenuation may be performed by the first (orsecond) devices without involvement by the network.

In another scenario, at 308 communication occurs to the first device. At309, proximity and/or user manipulation of a control on the first and/orsecond device results in initiation of a partial call transfer. At 310,a connection occurs to the second device as a result of this initiation.At 312, the network and/or other computing elements duplicatescommunication of particular application data to the second device (e.g.duplicates data to the second device for which there is a well-suitedapplication of the second device). For example, if the second devicewere a computer having a media player application, and the first acellular phone, it might be recognized that electronic video messagesare well suited to be handled on the second device.

To accomplish partial call transfer for data associated with aparticular application, applications associated with particularcommunication data may be recognized. Examples of likely applicationsinclude a chat application, a messaging application, a game application,a video application, an image processing application, a musicapplication, or an audio application.

Additionally, some of the capabilities of a proximate device may berecognized, possibly including identification of the capability toprovide certain applications.

Additionally, device states and data may be maintained and communicatedto accomplish a substantially uninterrupted transfer to the proximatedevice of data associated with the application. For example, fileattachments associated with an email message may be transferred alongwith ongoing communications.

At 314, the network attenuates communication of the application data tothe first device and possibly enhances communication of the applicationdata to the second device.

As mentioned before, in other embodiments this functionality may beaccomplished without the involvement of network logic, e.g. the firstdevice acts as a conduit of the data type(s) to the second device.

FIG. 4 is a block diagram of an embodiment of a communicationenvironment.

Within the communications environment, a first device 112 comprises adisplay 408, an audio input 406, a processor 402, and memory 404.

Another device 102 comprises a keyboard 410, a camera 416, and pointingdevice 412 (e.g. mouse) inputs. The device 102 also comprises amicrophone 118, a display 104, and earphones 106.

In some embodiments, the user of the first device 112 may wear a device405, which may be used, at least in part, to detect proximity betweenthe first device 112 and the second device 102. Examples of a device 405which may be worn comprise a BlueTooth medallion, a watch, or a deviceincorporated into jewelry or clothing.

Proximity detection may comprise detecting more than one proximatedevice. For example, in the embodiment of FIG. 4, the mobile device 112,the television 110, and the device 102 may be detected as being inproximity to one another.

Proximity detection may comprise detecting more than one mobile devicein an environment. For example, a mobile device such as 112 could bedetected, and additionally, a notebook computer and portable musicplayer could be detected.

The proximity detection function may be incorporated into the firstdevice 112, second device 102, or both, or may take place via a separatedevice such as the wearable device 405.

The wearable device 405 may incorporate additional functionality inaddition to proximity detection, such that functionality (logic) tofacilitate various acts described herein in conjunction with the firstand second devices 112 and 102, respectively. For example, a watch ormedallion may incorporate cellular telephone features, data processingfunctionality, and proximity detection functionality. Thus, in someembodiments the device 405 could take the place of the first device 112.

Several of devices 112, 102, and 405 may incorporate a portion or all ofthe proximity detection function, and at least one (not necessarily thesame one(s)) may accomplish this functionality at various times. Thedevice(s) used for proximity detection may also be used to detect lossof proximity.

When one device detects proximity with another device, the presence ofan active call on one of the devices may also be ascertained as part ofor along with proximity detection. For example, call transfer to asecond device 102 from a first device 112 may begin with detection ofproximity between the devices and ascertaining that the first device 102has an active call.

Providing a substantially uninterrupted transfer of a call may comprisesubstantially duplicating at least a portion of the state of thetransferred call onto the target device. For example, if the call is onhold on the first device, the call may also be placed on hold on thesecond device once transferred.

Various events may trigger the call transfer process. For example, calltransfer may be provided, at least in part, in response to motion of thefirst device 112 toward the second device 102. Call transfer may beprovided, at least in part, in response to orienting the first device112 toward the second device 102. Call transfer may be provided, atleast in part, if the second device 102 has capabilities superior to thefirst device 112 to render information of the call. Call transfer may beprovided, at least in part, upon detection of indications that a user ofthe first device 112 has shifted to using the second device 102. Suchindications that a user of the first device 112 has shifted to using thesecond device 102 include detecting that the second device 102 (whenmobile) is moving away from the first device 112, or vice-versa.

Activity of the second device 102 might also indicate that usage hasshifted. Such activity may include I/O activity on the second device102. Detecting I-O activity on a communications device 102 may includedetecting I-O activity other than actions to explicitly cause a transferof the call. Such I/O activity may include such things as adjustment ofa visual display control, adjustment of an audio input or outputcontrol, adjustment of a video input or output control, a keyboardevent, or use of a mouse or other pointing device.

In some embodiments, the first device 112 may continue to monitoraspects of the call after the call is transferred to the second device102 (or multiple devices). This monitoring may include the first device112 recording call information after the call has been transferred.

Providing a substantially uninterrupted transfer of a call may includetransferring selected parties of the call to the second device. Selectedparties to the call may include parties selected by a user, selectedchannels of the call, and/or parties selected according to rulescomprised by at least one of the first and second devices. Selectedparties to the call may include parties and/or channels of the callselected according to applications of and/or capabilities of the seconddevice. For example, selected parties to the call may include partiesthat are instant messaging chat participants, because the second deviceis better suited (e.g. larger keyboard, larger screen) to supporting aninstant messaging application. Selected parties to the call may includeparties that are participants in a voice conference call, for example,because the second device is better suited (e.g. superior microphone andspeaker) to supporting a voice conferencing application. Selectedparties to the call may include parties that are participants in a videoconference call, for example, because the second device is better suitedto supporting a video conferencing application.

An active call may be transferred, at least in part, to a second device102 already having an existing (different) active call. At least aportion of the call on the first device 112 may be merged with theexisting call on the second device 102. Merging may include mergingvoice data of the call to the first device 112 with non-voice, non-videodata of the existing call of the second device 102. Merging may includemerging voice data of the call to the first device 112 with video dataof the existing call. Merging may include merging the call of the firstdevice 112 and the existing call into a voice and/or video conferencecall.

The information communicated via the call on the first device 112 may beadjusted when transferred according to at least one of I/O, processing,data processing application, or communication capabilities of the seconddevice 102. Adjusting the information communicated via the call mayinclude adjusting the bandwidth of the call, increasing the resolutionof video information of the call, and/or increasing the fidelity and/ornumber of channels of audio information of the call. Adjusting theinformation of the call may include adding video information to thecall, adding non-audio, non-video data to the call.

The manner in which the information of the call is presented to a usermay also be adjusted according to at least one of I/O, processing, dataprocessing application, or communication capabilities of the seconddevice 102. Adjusting the presentation of information of the call mayinclude adjusting video and/or image presentation dimensions to fit adisplay of the second device 102, adjusting audio fidelity and/or numberof channels according to the audio rendering capabilities of the seconddevice 102, and/or activating at least one data processing applicationof the second device 102 to process information of the call.

The second device 102 may be enabled to control at least some aspects ofthe call (or portion or portions thereof transferred from the firstdevice 112. Enabling the second device 102 to control at least someaspects of the call of the first device 112 may include providing anemulation of controls of the first device on the second device.Emulation 414 of at least some control aspects of the first device 112may be presented on a display 104 of the second device 102. Emulationmay comprise providing via the second device 102 at least a portion of auser interface of the first device 112. Emulating a portion of a userinterface may include emulating buttons or other controls of the firstdevice 112 on a graphical user interface (GUI) of the second device 102,e.g. providing a picture, image, or other reproduction of at least partof the first device 112 on a GUI of the second device 102.

Enabling the second device 102 to control at least some aspects of thecall of the first device 112 may include enabling control of the call ofthe first device 112 via voice commands to the second device 102,enabling control of the call to the first device 112 via gestures to thesecond device 102, controlling connection and/or disconnection of thecall of the first device 112, enabling control of the status of the callof the first device 112, and/or enabling control of data recordingfeatures of the call of the first device 112.

In response to transfer of the call to the second device 102 or devices,one or more parts of the first device 112 may be placed into a sleepmode. Placing at least a part of the first device 112 into a sleep modemay include decreasing power consumption of at least a part of the firstdevice 112, for example, by dimming or disabling a visual display of thedevice 112, reducing the clock rate of and/or disabling a processorand/or a processor bus of the device 112, reducing the clock rate ofand/or disabling a memory bus and/or communication bus of the device112, reducing power consumption of an audio system component of thedevice 112, reducing power consumption of a memory controller and/ormemory interface of the device 112, and/or reducing the powerconsumption of a communication controller and/or communication interfaceof the device 112.

Power consumption of at least a part of the first device 112 may befurther reduced if the call is discontinued or if the second device 102loses proximity with the first device 112.

In some embodiments, a substantially uninterrupted transfer of at leasta portion of the call may occur to the second device 102 and transfer ofat least a portion of the call may occur to a third device 110.Providing a transfer of the call to multiple target devices may includeselecting which device to transfer a portion or portions of the call toaccording to the target device capabilities, user selections of thedevices, a type of information in the portion or portions of the call(e.g. is it audio or video), selecting one or more of the target devicesaccording to the data processing application or applications availableon the target device(s) (e.g. does the target device support instantmessaging, chat, spreadsheets, word processing, and so on), and/oraccording to rules comprised by at least one of the first 112, second102, and third 110 devices (or more).

In some embodiments, a call may be transferred back to the first device112 from one or more of the devices 102, 110 to which the call was firsttransferred. The call may be transferred back to the first device 112 inresponse to the first device 112 moving away from the second device 102and/or additional devices 110. The call may be transferred back as aresult of indications that the user has shifted back to using theoriginal communicating device 112. I/O activity of the first device 112and/or other devices may be monitored to determine if transfer back tothe first device 112 should occur. Some or all of the call transferfeatures described herein for the original transfer of the call may beprovided for the transfer of the call back to the first device 112. Forexample, selected parties of the call may be transferred back to thefirst device 112, the second 102 or multiple devices may continue tomonitor the status/duration of the call after transfer back, thetransfer back may occur for a particular data type of the call and/oraccording to capabilities/applications of the first device 112, and soon.

FIG. 5 is an action flow diagram of an embodiment of a communicationtransfer process. Upon transfer of the call to the second device, theall or portions of the first device may sleep at 503, e.g. enter areduced power state. The first device may at 504 continue to monitor asleast some aspects of the call transferred to the second device. Thefirst device may wake at 506 upon detecting that the user's attentionhas returned to the first device.

FIG. 6 is an action flow diagram of an embodiment of a partialcommunication transfer process. At 302, a first device communicates witha base station or network. One or more of the data types within thecommunication are identified. Examples of data type of communicationdata include voice, video, data file, or music. At 304, a connection isestablished to a second device. A portion of the communication to thefirst device, having a first data type, is transferred to the seconddevice at 604. The second device has been identified as a proximatedevice capable of rendering the first data type. Examples of renderingthe data type include at least one of displaying images, playing videoor playing sound or music.

Selecting a proximate device to render or process communications datamay include identifying an application, provided by that device, whichcan process the data. Examples of identifying an application associatedwith communication data include at least one of a chat application,messaging application, game application, video application, imageprocessing application, music application, or audio application.

At 602 communication is established to a third device. A portion of thecommunication to the first device, having a second data type, istransferred to the third device at 606. The third device has beenidentified as a proximate device capable of rendering the second datatype. At 608, communication to the first device is attenuated for thefirst data type. At 610, communication to the first device is attenuatedfor the second data type.

Providing a substantially uninterrupted transfer of the communicationsdata in a call may mean maintaining communications with the first devicefor those data types and applications not supported by the proximatedevices, and transferring to a second or additional devicescommunications for particular data type associated with particularapplications/capabilities which are supported by the proximate devices.

Those having skill in the art will appreciate that there are variousvehicles by which processes and/or systems described herein can beeffected (e.g., hardware, software, and/or firmware, collectively,logic), and that the preferred vehicle will vary with the context inwhich the processes are deployed. For example, if an implementerdetermines that speed and accuracy are paramount, the implementer mayopt for a hardware and/or firmware vehicle; alternatively, ifflexibility is paramount, the implementer may opt for a solely softwareimplementation; or, yet again alternatively, the implementer may opt forsome combination of hardware, software, and/or firmware. Hence, thereare several possible vehicles by which the processes described hereinmay be effected, none of which is inherently superior to the other inthat any vehicle to be utilized is a choice dependent upon the contextin which the vehicle will be deployed and the specific concerns (e.g.,speed, flexibility, or predictability) of the implementer, any of whichmay vary. Those skilled in the art will recognize that optical aspectsof implementations will require optically-oriented hardware, software,and or firmware.

The foregoing detailed description has set forth various embodiments ofthe devices and/or processes via the use of block diagrams, flowcharts,and/or examples. Insofar as such block diagrams, flowcharts, and/orexamples contain one or more functions and/or operations, it will beunderstood as notorious by those within the art that each functionand/or operation within such block diagrams, flowcharts, or examples canbe implemented, individually and/or collectively, by a wide range ofhardware, software, firmware, or virtually any combination thereof.Several portions of the subject matter subject matter described herein,may be implemented via forms of logic including Application SpecificIntegrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs),digital signal processors (DSPs), or other integrated formats. However,those skilled in the art will recognize that some aspects of theembodiments disclosed herein, in whole or in part, can be equivalentlyimplemented using forms of logic including integrated circuits, as oneor more computer programs running on one or more computers (e.g., as oneor more programs running on one or more computer systems), as one ormore programs running on one or more processors (e.g., as one or moreprograms running on one or more microprocessors), as firmware, or asvirtually any combination thereof, and that designing the circuitryand/or writing the code for the software and/or firmware would be wellwithin the skill of one of skill in the art in light of this disclosure.In addition, those skilled in the art will appreciate that themechanisms of the subject matter described herein are capable of beingdistributed as a program product in a variety of forms, and that anillustrative embodiment of the subject matter described herein appliesequally regardless of the particular type of signal bearing media usedto actually carry out the distribution. Examples of a signal bearingmedia include, but are not limited to, the following: recordable typemedia such as floppy disks, hard disk drives, CD ROMs, digital tape, andcomputer memory; and transmission type media such as digital and analogcommunication links using TDM or IP based communication links (e.g.,packet links).

In a general sense, those skilled in the art will recognize that thevarious aspects described herein which can be implemented, individuallyand/or collectively, by logic including a wide range of hardware,software, firmware, or any combination thereof which can be viewed asbeing composed of various types of “electrical circuitry.” Consequently,as used herein “electrical circuitry” includes, but is not limited to,electrical circuitry having at least one discrete electrical circuit,electrical circuitry having at least one integrated circuit, electricalcircuitry having at least one application specific integrated circuit,electrical circuitry forming a general purpose computing deviceconfigured by a computer program (e.g., a general purpose computerconfigured by a computer program which at least partially carries outprocesses and/or devices described herein, or a microprocessorconfigured by a computer program which at least partially carries outprocesses and/or devices described herein), electrical circuitry forminga memory device (e.g., forms of random access memory), and/or electricalcircuitry forming a communications device (e.g., a modem, communicationsswitch, or optical-electrical equipment).

Those skilled in the art will recognize that it is common within the artto describe devices and/or processes in the fashion set forth herein,and thereafter use standard engineering practices to integrate suchdescribed devices and/or processes into larger systems. That is, atleast a portion of the devices and/or processes described herein can beintegrated into a network processing system via a reasonable amount ofexperimentation.

The foregoing described aspects depict different components containedwithin, or connected with, different other components. It is to beunderstood that such depicted architectures are merely exemplary, andthat in fact many other architectures can be implemented which achievethe same functionality. In a conceptual sense, any arrangement ofcomponents to achieve the same functionality is effectively “associated”such that the desired functionality is achieved. Hence, any twocomponents herein combined to achieve a particular functionality can beseen as “associated with” each other such that the desired functionalityis achieved, irrespective of architectures or intermedial components.Likewise, any two components so associated can also be viewed as being“operably connected”, or “operably coupled”, to each other to achievethe desired functionality.

Unless the context clearly requires otherwise, throughout thedescription and the claims, the words “comprise,” “comprising,” and thelike, are to be construed in an inclusive sense as opposed to anexclusive or exhaustive sense. Or in other words, for the purposes of“including, but not limited to.” Words using the singular or pluralnumber also include the plural or singular number respectively.Additionally, the words “herein,” “above,” “below” and words of similarimport, when used in this application, shall refer to this applicationas a whole and not to any particular portions of this applicationseparately. When the claims use the word “or” in reference to a list oftwo or more items, that word covers all of the following interpretationsof the word: any of the items in the list, all of the items in the listand any combination of the items in the list.

1. A computationally implemented system comprising: at least oneprocessor; and memory electronically coupled to the at least oneprocessor, the memory storing instructions that, when executed by the atleast one processor, direct the at least one processor to perform thefollowing steps: detecting a second communication device in proximity toa first communication device engaged in a call; providing asubstantially uninterrupted transfer of the call to the secondcommunication device; and providing a substantially uninterruptedtransfer of the call back to the first communication device, wherein thedetecting a second communication device in proximity to a firstcommunication device engaged in a call further includes: identifying thesecond communication device from one or more images.
 2. Thecomputationally implemented system of claim 1, wherein the providing asubstantially uninterrupted transfer of the call back to the firstcommunication device further includes: substantially duplicatinginformation of the call to the first communication device while the callis ongoing with the second communication device.
 3. The computationallyimplemented system of claim 1, wherein the providing a substantiallyuninterrupted transfer of the call back to the first communicationdevice further includes: establishing a call connection to the firstcommunication device; and substantially duplicating call information tothe first communication device.
 4. The computationally implementedsystem of claim 1, wherein the providing a substantially uninterruptedtransfer of the call back to the first communication device furtherincludes: providing a transfer of the call back to the firstcommunication device in response to the first communication devicemoving away from the second communication device.
 5. The computationallyimplemented system of claim 1, wherein the providing a substantiallyuninterrupted transfer of the call back to the first communicationdevice further includes: identifying the first communication device to anetwork by which the call is provided, the network substantiallyduplicating the call to the first communication device.
 6. Thecomputationally implemented system of claim 1, wherein the providing asubstantially uninterrupted transfer of the call back to the secondcommunication device further includes: providing a transfer of the callin response to orienting the first communication device toward thesecond communication device.
 7. The computationally implemented systemof claim 1, wherein the detecting a second communication device inproximity to a first communication device engaged in a call furtherincludes: detecting that the first communication device is in a physicalarea; and detecting that the second communication device is also in thephysical area.
 8. The computationally implemented system of claim 1,wherein the detecting a second communication device in proximity to afirst communication device engaged in a call further includes: applyingwireless communication between a third communication device and thesecond communication device.
 9. The computationally implemented systemof claim 8, wherein the applying wireless communication between a thirdcommunication device and the second communication device furtherincludes: applying Bluetooth communication between the secondcommunication device and a device carried by a user of the firstcommunication device.
 10. The computationally implemented system ofclaim 9, wherein the applying Bluetooth communication between the secondcommunication device and a device carried by a user of the firstcommunication device further includes: applying Bluetooth communicationbetween the second communication device and a medallion worn by the userof the first communication device.
 11. The computationally implementedsystem of claim 1, further including: detecting a data type ofcommunication data supported by the second communication device; andproviding a substantially uninterrupted transfer to the secondcommunication device of data of the communication having the data type.12. The computationally implemented system of claim 1, wherein theproviding a substantially uninterrupted transfer of the call back to thefirst communication device further includes: substantially duplicatingat least a portion of the state of the call from the secondcommunication device to the first communication device.
 13. Thecomputationally implemented system of claim 1, further including:routing communications to the first and second communication devicesthrough a central premise device.
 14. The computationally implementedsystem of claim 1, further including: routing communications to thesecond communication device through the first communication device. 15.The computationally implemented system of claim 1, further including:identifying an application associated with communication data; andidentifying the second communication device as a proximate devicecapable of providing the application.
 16. The computationallyimplemented system of claim 1, further including: providing asubstantially uninterrupted transfer to the second communication deviceof data associated with the application.
 17. The computationallyimplemented system of claim 1, further including: the firstcommunication device to provide an indication that call transfer isavailable as a result of detecting proximity of the second communicationdevice and the first communication device.
 18. The computationallyimplemented system of claim 1, further including: placing at least apart of the first communication device into a sleep mode in response totransfer of the call to the second communication device.
 19. Acomputationally implemented system comprising: at least one processor;and memory electronically coupled to the at least one processor, thememory storing instructions that, when executed by the at least oneprocessor, direct the at least one processor to perform the followingsteps: detecting a second communication device in proximity to a firstcommunication device engaged in a call; providing a substantiallyuninterrupted transfer of the call to the second communication device;and transferring in a substantially uninterrupted fashion at least aportion of the call to the second communication device back to the firstcommunication device upon indications that a user of the secondcommunication device has shifted back to using the first communicationdevice, further including: the second communication device to continueto monitor aspects of the call after at least a portion of the call istransferred back to the first communication device.
 20. Thecomputationally implemented system of claim 19, wherein the detecting asecond communication device in proximity to a first communication deviceengaged in a call further includes: applying Bluetooth communicationbetween the second communication device and a device carried by a userof the first communication device.
 21. The computationally implementedsystem of claim 19, further including: placing at least a part of thesecond communication device into a sleep mode in response to a transferof at least a portion of the call back to the first communicationdevice.
 22. The computationally implemented system of claim 19, furtherincluding: further reducing power consumption of at least a part of thesecond communication device if the call is discontinued or the secondcommunication device becomes no longer proximate to the firstcommunication device.
 23. A computationally implemented systemcomprising: at least one processor; and memory electronically coupled tothe at least one processor, the memory storing instructions that, whenexecuted by the at least one processor, direct the at least oneprocessor to perform the following steps: detecting a secondcommunication device in proximity to a first communication deviceengaged in a call; providing a substantially uninterrupted transfer ofthe call to the second communication device; and transferring in asubstantially uninterrupted fashion at least a portion of the call tothe second communication device back to the first communication deviceupon indications that a user of the second communication device hasshifted back to using the first communication device, further including:the second communication device to continue to monitor aspects of thecall after at least a portion of the call is transferred back to thefirst communication device, and the second communication device tocontinue to monitor aspects of the call after at least a portion of thecall is transferred back to the first communication device, wherein thesecond communication device to continue to monitor aspects of the callafter at least a portion of the call is transferred back to the firstcommunication device further includes: the second communication deviceto continue to record call information after the at least a portion ofthe call has been transferred.
 24. A communication system comprising:circuitry to detect a second communication device in proximity to afirst communication device engaged in a call; circuitry to provide asubstantially uninterrupted transfer of the call to the secondcommunication device; and circuitry to transfer in a substantiallyuninterrupted fashion at least a portion of the call to the secondcommunication device back to the first communication device uponindications that a user of the second communication device has shiftedback to using the first communication device.